Science Learning Model for Kindergarten
Abstract
Science education is essential to the development of kindergarten students. Integrating science education into education from an early age, intended to help children understand the world around them and improve critical thinking skills. Science can not be taught to children in a way like other knowledge that is to tell the children directly yield discoveries in science. This is because on the one hand, science is observation and exploration of the world around us, including questioning, investigating, analyzing, and drawing conclusions. On the other hand, children are often eager to know and they are intuitive. They try to understand the reasons why things happen and busy looking for answers. In other words, they seem to have a natural aptitude for science. Thus, children should be actively involved in the learning process of science. This research isthe development ofa modelthat aims to makescience learning strategy forkindergartenchildrentodeveloptheir potentialas a researcherin the future. The research beganwith capturing the habits, needs, and hopes ofkindergarten teachersin the teaching ofsciencethrough a questionnaire. The resultstogether withthe results ofliterature studyonthe teaching of science, usedto make a prototypeofsciencelearningmodel in kindergarten. Then theprototypewastestedin a limited areain somekindergartenstoget inputas a revisionmaterial. This guide wasthenrevisedand will bewidely disseminatedtootherkindergartens asan innovation inscience learningin kindergarten
Keywords
References
Oakes, J. (1990). Lost talent: The under-participation of women, Minorities, and disabled persons in science. Santa Monica, CA: The Rand Corporation.
Charlesworth, R., and Lind, K. (1995). Math and science for young children. 2d ed. Albany, NY: Delmar.
Osborne, M., and Freyberg, P. (1985). Learning in science: Implications of children's science. Auckland, New Zealand: Heinemann.
Zeece, P.D. (1999). Things of nature and the nature of things: Natural science-based literature for young children. Early Childhood Education Journal, 26 (3), 161-166.
Kilmer, S.J., &Hofman, H. (1995). Transforming science curriculum. In S. Bredekamp&Rosegrant, T. (Eds.). Reaching potentials: Transforming early childhood curriculum and assessment, Vol. 2. Washington, DC: NAEYC, pp. 43-63.
Duckworth, E. (1987). 'The Having of Wonderful Ideas "and Other Essays on Teaching and Learning. New York: Teachers College Press.
Conezio, K, & French, L. (2002, September). Science in the preschool classroom: capitalizing on children's fascination with the everyday world to foster language and literacy development. Young
Chaille, C. And Britain, L. (2003). The young child as scientist (3rd ed.). Boston: Allyn& Bacon.
Martens, M.L. (1999, May). Productive questions: tools for supporting constructivist learning.Science and Children, pp. 24-27, 53.
(Http://www.earlychildhoodnews.com/earlychildhood/article_view.aspx?ArticleId=409)
Refbacks
- There are currently no refbacks.
International Conference on Education and Language (ICEL)
Bandar Lampung University
ISSN: 2303-1417